The equine placenta is a vital organ that facilitates nutrient and gas exchange between the mare and the developing fetus during pregnancy. It plays a role in hormone production and immune modulation to support fetal development. The placenta in horses is classified as a diffuse, epitheliochorial type, characterized by the widespread attachment of the chorionic villi to the endometrium. Research on the equine placenta encompasses studies on its structure, function, and the physiological processes involved in its development and maintenance. This page compiles peer-reviewed research studies and scholarly articles that explore the morphology, function, and clinical implications of the placenta in equine reproduction and health.
Verstraete MH, Dini P, Orellana D, Uribe-Salazar JM, Veras MM, Carneiro F, Daels P, Fernandes CB.The proper function of the placenta is essential for the health and growth of the fetus and the mother. The placenta relies on dynamic gene expression for its correct and timely development and function. Although numerous studies have identified genes vital for placental functions, equine placental molecular research has primarily focused on single placental locations, in sharp contrast with the broader approach in human studies. Here, we hypothesized that the molecular differences across different regions of the equine placenta are negligible because of its diffuse placental type with a macro...
Laundon D, Proudley E, Basford PJ, Katsamenis OL, Chatelet DS, Cleal JK, Gostling NJ, Chavatte-Palmer P, Lewis RM.Placental structure is linked to function across morphological scales. In the placenta, changes to gross anatomy, such as surface area, volume, or blood vessel arrangement, are associated with suboptimal physiological outcomes. However, quantifying each of these metrics requires different laborious semi-quantitative methods. Here, we demonstrate how, with minimal sample preparation, whole-organ computed microtomography (microCT) can be used to calculate gross morphometry of the equine placenta and a range of additional metrics, including branching morphometry of placental vasculature, non-dest...
Arroyo LG, Gomez DE, Moore A, Papapetrou M, Lillie BN.Our objective was to determine whether equine herpesviruses 1 (EHV-1) viral nucleic acids could be detected immediately after foaling from nasal and vaginal swabs, whole blood, and placental tissue of healthy mares. Unassigned: Nasal and vaginal swabs, EDTA blood, and placental tissue (296 samples) were collected from 74 clinically healthy postpartum broodmares within 24 h after giving birth to live, clinically healthy foals. All samples were tested (PCR) for nucleic acids of neuropathogenic and non-neuropathogenic strains of EHV-1, and all were negative. Unassigned: As EHV-1 was not detected ...
